Bioaccumulation and translocation factors of petroleum hydrocarbons in Aeluropus littoralis

Rafiee, Mohammad; Rad, Mahsa Jahangiri; Afshari, Arash

doi:10.15171/ehem.2017.18

Cited by 6 publications

(6 citation statements)

References 17 publications

(21 reference statements)

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“…The total N present in the shoots was determined by the Kjeldahl method, after sulfuric acid digestion. [50] The Cd translocation factor (TF) and Cd bioaccumulation factor (BCF) were calculated according to Rezvani and Zaefarian, [51] as expressed in Equations ( 2) and ( 3), where…”

Section: Determination Of Nutrients and CD Concentrationsmentioning

confidence: 99%

Cadmium Accumulation in a Tropicalized Lettuce Variety Under Overfertilization Simulation

Nunes

Kiyota

Andrade

2022

CLEAN Soil Air Water

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Cadmium (Cd) can accumulate in vegetables and enter the food chain. The production of vegetables usually uses excessive amounts of fertilizers which bring environmental and health damages. The authors investigate the relationship between fertilization with nitrogen (N), phosphorus (P), and potassium (K) and the accumulation of Cd and nitrate in lettuce of the tropicalized variety "Gloriosa." The experiment is under greenhouse conditions in a 2×2 factorial design, with the addition or not of 10 mg kg −1 Cd to the soil, and the use of one and three times the recommended rate of N, P, and K for lettuce crop. The higher fertilization rate is related to the increase of Cd in the shoots. Gloriosa lettuce shows high Cd-accumulation capacity, especially in the shoots, evidencing great Cd-translocation. Fresh leaves reach up to 8 mg kg −1 Cd, higher than permissible limits, but high Cd-tolerance and no visual symptoms of toxicity or reduction in biomass production. In plants grown with three times the recommended rates of N, nitrate concentrations are within the permissible limits for leafy vegetables. To avoid Cd-accumulation, besides monitoring soil Cd, it would be necessary to establish safe rates of fertilization for the cultivation of tropicalized lettuce varieties.

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Section: Determination Of Nutrients and CD Concentrationsmentioning

confidence: 99%

Cadmium Accumulation in a Tropicalized Lettuce Variety Under Overfertilization Simulation

Nunes

Kiyota

Andrade

2022

CLEAN Soil Air Water

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“…Its environmental factors (physicochemical properties) are the determinant stimuli for the nature of indigenous microbes, bacterial community, and the composition of functional genes [73]. e soil physicochemical characteristics that show such effect include soil type, region, texture, particle size, maximum water holding capacity (moisture), temperature, nutrient content, oxygen content, and pH [6,91]. Overall, those soil factors are affecting the chemical stability, bioavailability, and movement of hydrocarbons pollutants in the soil to support potential bacterial growth and then ultimately for effective biodegradation [11].…”

Section: Soil Characteristicsmentioning

confidence: 99%

“…Fine soil particles (clay soil; with small interstitial spaces) retain the hydrocarbon at the soil surface and reduce the availability of nutrients and oxygen whilst coarse soil particles (sand soil; with large interstitial spaces) drain hydrocarbon pollutants through the soil to the unsaturated zone. ose properties of soil make the rate of hydrocarbon biodegradation very sluggish [6]. Hence, for efficient and rapid biodegradation, abstemiously drained soil particles (increase in porosity) are important for intensification of the contaminant's bioavailability, supply of oxygen, and enhancing the metabolism and growth of potential indigenous microbes [22].…”

Section: Soil Particle Sizementioning

confidence: 99%

“…However, the low level of oxygen in hydrocarbon-contaminated sites hampers the aerobic degradation routes and resulting low removal efficacy [30]. e factors resulting in slow biodegradation and free oxygen depletion in the soil include oxygen concentration, bacterial oxygen consumption rate, physical and chemical properties of contaminated soils (type and porosity), and the presence of utilizable substrates or accumulation of organic matters [6,28]. erefore, the availability of oxygen in the soil is essential to have effective biodegradation.…”

Section: Soil Particle Sizementioning

confidence: 99%

“…To overcome pollutions caused by various hydrocarbon-derived pollutants, many researchers have been showing that physical, chemical, and biological methods are routinely used for the treatment of contaminated sites [2,3]. Moreover, biological remediation is a cost-effective, simple, efficient, noninvasive, apply in situ, ecologically friendly, sustainable, and applicable approach [4][5][6][7].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Factors Influencing the Bacterial Bioremediation of Hydrocarbon Contaminants in the Soil: Mechanisms and Impacts

Kebede

Tafese

Abda

et al. 2021

Journal of Chemistry

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The discharge of hydrocarbons and their derivatives to environments due to human and/or natural activities cause environmental pollution (soil, water, and air) and affect the natural functioning of an ecosystem. To minimize or eradicate environmental pollution by hydrocarbon contaminants, studies showed strategies including physical, chemical, and biological approaches. Among those strategies, the use of biological techniques (especially bacterial biodegradation) is critically important to remove hydrocarbon contaminants. The current review discusses the insights of major factors that enhance or hinder the bacterial bioremediation of hydrocarbon contaminants (aliphatic, aromatic, and polyaromatic hydrocarbons) in the soil. The key factors limiting the overall hydrocarbon biodegradation are generally categorized as biotic factors and abiotic factors. Among various environmental factors, temperature range from 30 to 40°C, pH range from 5 to 8, moisture availability range from 30 to 90%, carbon/nitrogen/phosphorous (C/N/P; 100:20:1) ratio, and 10–40% of oxygen for aerobic degradation are the key factors that show positive correlation for greatest hydrocarbon biodegradation rate by altering the activities of the microbial and degradative enzymes in soil. In addition, the formation of biofilm and production of biosurfactants in hydrocarbon-polluted soil environments increase microbial adaptation to low bioavailability of hydrophobic compounds, and genes that encode for hydrocarbon degradative enzymes are critical for the potential of microbes to bioremediate soils contaminated with hydrocarbon pollutants. Therefore, this review works on the identification of factors for effective hydrocarbon biodegradation, understanding, and optimization of those factors that are essential and critical.

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Characterization of raw and ozonated oil sands process water utilizing atmospheric pressure gas chromatography time-of-flight mass spectrometry combined with solid phase microextractionun

et al. 2021

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Bioaccumulation and translocation factors of petroleum hydrocarbons in Aeluropus littoralis

Cited by 6 publications

References 17 publications

Cadmium Accumulation in a Tropicalized Lettuce Variety Under Overfertilization Simulation

Cadmium Accumulation in a Tropicalized Lettuce Variety Under Overfertilization Simulation

Factors Influencing the Bacterial Bioremediation of Hydrocarbon Contaminants in the Soil: Mechanisms and Impacts

Characterization of raw and ozonated oil sands process water utilizing atmospheric pressure gas chromatography time-of-flight mass spectrometry combined with solid phase microextractionun

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